U.S. patent number 5,622,456 [Application Number 08/408,785] was granted by the patent office on 1997-04-22 for retaining wall blocks.
This patent grant is currently assigned to Rothbury Investments Ltd.. Invention is credited to Angelo Risi, Antonio Risi.
United States Patent |
5,622,456 |
Risi , et al. |
April 22, 1997 |
Retaining wall blocks
Abstract
Retaining wall blocks are disclosed, which are trapezoidal in
shape and have a positive interlock. These blocks can be used to
construct walls, especially garden walls, that are strong and
either straight or serpentine, with concave or convex surfaces.
More particularly, the blocks, thanks to their structure, can be
used to construct tree rings or wells, patio walls with or without
corners, straight walls with curved ends, serpentine feature walls,
L-shaped walls, lawn and driveway edgings, small steps, free-form
shallow ponds, planter boxes, window wells and the like.
Advantageously, they can be produced in the form of units
comprising blocks of the same or different type, e.g. of the
stacking, coping or corner type, which can be assembled in the form
of very light bundles easy to store and transport.
Inventors: |
Risi; Angelo (Richmond Hill,
CA), Risi; Antonio (Richmond Hill, CA) |
Assignee: |
Rothbury Investments Ltd.
(Thornhill, CA)
|
Family
ID: |
25677856 |
Appl.
No.: |
08/408,785 |
Filed: |
March 23, 1995 |
Current U.S.
Class: |
405/284; 405/262;
405/286; 52/604 |
Current CPC
Class: |
E02D
29/025 (20130101); E04C 1/395 (20130101); E04B
2002/0208 (20130101); E04B 2002/026 (20130101); E04B
2002/0263 (20130101) |
Current International
Class: |
E02D
29/02 (20060101); E02D 029/02 () |
Field of
Search: |
;405/284,286,273
;52/604,605,606,607,608,570,599 |
References Cited
[Referenced By]
U.S. Patent Documents
Foreign Patent Documents
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|
|
|
|
|
|
2019033 |
|
Dec 1991 |
|
CA |
|
2127872 |
|
Apr 1984 |
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GB |
|
Primary Examiner: Bennett; Henry A.
Assistant Examiner: O'Connor; Pamela A.
Attorney, Agent or Firm: Robic
Claims
We claim:
1. A retaining wall block comprising:
top and bottom surfaces that are flat and parallel to each other,
each of said top and bottom surfaces being trapezoidal in shape and
symmetrical with respect to a vertical plane;
front and rear surfaces that are transversal to said vertical plane
and substantially parallel to each other;
left-hand side and right-hand side surfaces that are flat and
extend at given angles that are opposite to each other with respect
to said vertical plane, respectively,
a groove of given depth and width that extends into the bottom
surface perpendicularly to the vertical plane at middle distance
from said front and rear surfaces between the left-hand side and
right-hand side surfaces; and
a tongue projecting from the top surface in a direction generally
perpendicular to the vertical plane between the left-hand side and
right-hand side surfaces, said tongue having a height equal to or
smaller than the depth of the groove, said tongue also having a
width which, at middle distance from said left-hand side and
right-hand side surfaces, is substantially equal to or slightly
smaller than the width of the groove, said width becoming smaller
in size toward each of said left-hand side and right-hand side
surfaces, respectively,
whereby another block of the same structure can be stacked onto
said block with the tongue of said block inserted into the groove
of said another block and with the front surfaces of both of said
blocks extending either parallel or at an angle with respect to
each other as a function of the position given to said tongue
within the groove of said another block.
2. The block of claim 1, wherein said groove and tongue have
similarly tapering sidewalls.
3. The block of claim 2, wherein said front and rear surfaces have
bevelled edges.
4. The block of claim 1, wherein said tongue extends at middle
distance from said front and rear surfaces, respectively
whereby, when said another block is stacked onto said block with
the tongue of said block inserted into the groove of said another
block and with the front surfaces of both of said blocks extending
parallel, said front surfaces are coplanar.
5. The block of claim 4, wherein said tongue is diamond-shaped and
has a long axis that extends perpendicular to said vertical plane,
a short axis that extend within said vertical plane, and a pair of
opposite apexes on said long axis that are cut into flat portions
that are coplanar with said left-hand side and right-hand surfaces,
respectively.
6. The block of claim 5, wherein said groove and tongue have
similarly tapering sidewalls.
7. The block of claim 6, wherein said front and rear surfaces have
bevelled edges.
8. The block of claim 5, said block being sized so that:
the ratio of the length of the front surface to the length of the
rear surface is equal to about 4/3;
the ratio of the height of said front and rear surfaces to the
length of said front surface is equal to about 1/2; and
the ratio of the length of said front surface to the distance
between said front and rear surfaces is equal to about 1.
9. The block of claim 6, said block being sized to so that:
the ratio of the length of the front surface to the length of the
rear surface is equal to about 4/3;
the ratio of the height of said front and rear surfaces to the
length of said front surface is equal to about 1/2; and
the ratio of the length of said front surface to the distance
between said front and rear surfaces is equal to about 1.
10. The block of claim 1, said block being sized so that:
the ratio of the length of the front surface to the length of the
rear surface is equal to about 4/3;
the ratio of the height of said front and rear surfaces to the
length of said front surface is equal to about 1/2; and
the ratio of the length of said front surface to the distance
between said front and rear surfaces is equal to about 1.
11. The block of claim 1, wherein said tongue is diamond-shaped and
has a long axis that extends perpendicular to said vertical plane,
a short axis that extend within said vertical plane, and a pair of
opposite apexes on said long axis that are cut into flat portions
that are coplanar with said left-hand side and right-hand surfaces,
respectively.
12. A multiple retaining wall block unit comprising at least two
blocks, each of said block comprising:
top and bottom surfaces that are flat and parallel to each other,
each of said top and bottom surfaces being trapezoidal in shape and
symmetrical with respect to a vertical plane;
front and rear surfaces that are transversal to said vertical plane
and substantially parallel to each other, said front and rear
surfaces having bevelled edges;
left-hand side and right-hand side surfaces that are flat and
extend at given angles that are opposite to each other with respect
to said vertical plane, respectively,
a groove of given depth and width that extends into the bottom
surface perpendicularly to the vertical plane at middle distance
from said front and rear surfaces between the left-hand side and
right-hand side surfaces; and
a tongue projecting from the top surface in a direction generally
perpendicular to the vertical plane between the left-hand side and
right-hand side surfaces, said tongue having a height equal to or
smaller than the depth of the groove, and a width while, at middle
distance from said left-hand side and right-hand side surfaces, is
substantially equal to or slightly smaller than the width of the
groove, said width becoming smaller in size toward each of said
left-hand side and right-hand side surfaces, respectively, said
tongue being diamond-shaped and having a long axis that extends
perpendicular to said vertical plane, a short axis that extend
within said vertical plane, and a pair of opposite apexes on said
long axis that are cut into flat portions that are coplanar with
said left-hand side and right-hand surfaces, respectively,
said groove and tongue having similarly tapering sidewalls;
said at least two blocks being integrally connected to each other
in line with the front or rear surface of each of said blocks
extending flat against the front or rear surface of every adjacent
block, respectively
whereby the bevelled edges of said front and rear surfaces make it
possible for each of said blocks to be easily slitted and cut off
from the remaining blocks.
13. The unit of claim 12, further comprising a pair of end pieces
forming an integral part thereof, said end pieces extending flat
against the front or rear surfaces of the blocks that extend at
both ends of the unit,
said end pieces having a height slightly smaller than the height of
the blocks whereby said end pieces can be slitted and cut off
directly from a bundle of said unit stacked with other similar
units.
14. The unit of claim 13, wherein the tongue of each of said at
least two blocks extends at middle distance from said front and
rear surfaces, respectively.
15. A multiple retaining wall block unit comprising at least two
blocks, each of said blocks comprising:
top and bottom surfaces that are flat and parallel to each other,
each of said top and bottom surfaces being trapezoidal in shape and
symmetrical with respect to a vertical plane;
front and rear surfaces that are transversal to said vertical plane
and substantially parallel to each other, said front and rear
surfaces having bevelled edges;
left-hand side and right-hand side surfaces that are flat and
extend at given angles that are opposite to each other with respect
to said vertical plane, respectively, and
a groove of given depth and width that extends into the bottom
surface perpendicularly to the vertical plane at middle distance
from said front and rear surfaces between the left-hand side and
right-hand side surfaces, said groove having tapering
sidewalls;
said at least two blocks being integrally connected to each other
in line with the front or rear surface of each of said blocks
extending flat against the front or rear surface of every adjacent
block, respectively,
whereby the bevelled edges of said front and rear surfaces make it
possible for each of said blocks to be easily slitted and cut off
from the remaining blocks.
16. The unit of claim 15, further comprising a pair of end pieces
forming an integral part thereof, said end pieces extending flat
against the front or rear surfaces of the blocks that extend at
both ends of the unit,
said end pieces having a height slightly smaller than the height of
the blocks whereby said end pieces can be slitted and cut off
directly from a bundle of said unit stacked with other similar
units.
Description
BACKGROUND OF THE INVENTION
a) Field of the Invention
The present invention relates to retaining wall blocks that can be
used as landscaping elements to construct nice-looking, straight or
curved retaining walls or edging.
The invention also relates to units made of a plurality of such
blocks integrally connected to each other in line.
b) Brief Description of the Prior Art
Retaining wall blocks, also called "garden stones", are well known
products that are commonly used to construct earth retaining wall
structure, terrace walls, patio or side walk edging, flower bed
borders and the like.
In Canadian patent No. 941,626 issued in 1974 to Giuseppe RISI,
there is disclosed a concrete molded block of rectangular shape,
provided with a groove extending centrally across its bottom flat
surface and with a matching tongue extending centrally across its
top flat surface. In use, these blocks can be stacked onto similar
blocks extending in line with the tongues of the underlying blocks
extending into the grooves of the overlying blocks. Since these
tongues and grooves are centrally positioned, the front surfaces of
all the stacked blocks extend in a same plane.
In Canadian patent No. 1,182,295 issued to the present inventors,
it is suggested to shift the tongues and grooves of blocks like
those disclosed in Canadian patent No. 941,626, so that each row of
blocks stacked onto another row of blocks extending below, is
automatically uniformly set back from the next below row of
blocks.
In both cases, the blocks that are stacked can be slid laterally
with respect to each other but cannot be slid forwards or rearwards
because of their tongue-and-groove connection. Such a locking of
the blocks against any transversal displacement substantially
reinforce the wall in the direction where it is the most subject to
deformation. However, because of their rectangular shape, the
blocks disclosed in both of the above mentioned patent can only be
used to construct straight walls.
To solve this problem, Canadian laid-open patent application No.
2,019,033 published in 1991 in the name of BLOCK SYSTEMS INC.
discloses a retaining wall block of trapezoidal shape, having a
locking that extend downwardly at the rear of its bottom surface.
Due to the trapezoidal shape of the blocks, one may construct not
only straight wall but also inwardly or outwardly curved wall.
However, because of the very specific position of the locking
flange, any wall that is built from such blocks is necessarily
inclined, because every horizontal row of blocks is automatically
set back from the adjacent row of blocks extending below.
U.S. Pat. No. DE 311,444 of 1990 in the name of Paul J. FORSBERG
discloses a retaining wall block of trapezoidal shape, that can
also be used to construct straight or serpentine walls. Depending
on the relative angular position of the blocks of each horizontal
course of blocks with respect to each other, one may indeed build a
straight or serpentine wall with convex and/or concave surface. In
this design patent, no reference is made to locking means to
connect each horizontal row of blocks to the next underlying row.
However, holes and cavities are provided in the blocks, probably
for the purpose of connecting such locking means thereto.
SUMMARY OF THE INVENTION
The object of the present invention is to provide a retaining wall
block which combines the structure and advantages of the
interlocking blocks disclosed in the above mentioned Canadian
patent Nos. 941,626 and 1,182,295, with the trapezoidal shape and
advantages of the blocks disclosed in Canadian laid-open
application No. 2,019,033 and U.S. Pat. No. DE 311,444.
The retaining wall block according to the invention basically
comprises:
top and bottom surfaces that are flat and parallel to each other,
each of these top and bottom surfaces being trapezoidal in shape
and symmetrical with respect to a vertical plane and preferably
having bevelled edges;
front and rear surfaces that are transversal to the Vertical plane
and substantially parallel to each other;
left-hand side and right-hand surfaces that are flat and extend at
given angles that are opposite to each other with respect to the
vertical plane, respectively, and
a groove of given depth and width that extends into the bottom
surface perpendicularly to the vertical plane at middle distance
from the front and rear surfaces between the left-hand and
right-hand side surfaces.
This block with a flat top surface is essentially useful as a
"coping" block, to provide a nice-looking, flat aspect to the top
surface of a wall formed of horizontal rows of other blocks of the
very same structure, but provided with locking tongues projecting
from their top walls.
In accordance with the invention, these other blocks, hereinafter
called "stacking blocks", each have a tongue that projects from
their top surface in a direction generally perpendicular to the
vertical plane, between their left-hand side and right-hand side
surfaces. The tongue must have a height equal to or smaller than
the depth of the groove. The tongue must also have a width of
varying size, which, at middle distance from the left-hand side and
right-hand side surfaces, is substantially equal to or slightly
smaller than the width of the groove, and which becomes smaller in
size toward each of the left-hand side and right-hand side,
respectively.
Thereby any other similar block can be stacked onto the block
disclosed hereinabove with the tongue of this block inserted into
the groove of the other block and with the front surfaces of both
of the blocks extending either parallel or at an angle with respect
to each other as a function of the position given to the tongue
within the groove of the other block. Thus, it becomes possible to
construct straight or serpentine walls wherein each horizontal row
of blocks is positively interlocked with the underlying row of
blocks.
In accordance with a preferred embodiment of the invention, the
tongue of the stacking block is diamond-shaped and has a long axis
that extends perpendicular to the vertical plane of the block, a
short axis that extend within the vertical plane, and a pair of
opposite apexes on this long axis that are cut into flat portions
that are coplanar with said left-hand side and right-hand side
surfaces of the block respectively.
Advantageously also, the tongue extends at middle distance from the
front and rear surfaces of the block respectively. Thereby, when
another similar block is stacked onto the block with the tongue of
this block inserted into the groove of this other block and with
the front surfaces of both of these blocks extending parallel,
these front surfaces are coplanar.
With such a positioning of the tongue, it becomes also possible to
construct a straight wall with no space left between each block, by
merely "inverting" the adjacent blocks so that one block has its
front surface forwards while the next adjacent block has its rear
surface forwards. As a result, all the adjacent surfaces of the
blocks on the front and rear surface of the erected wall will
extend adjacent in same plane, respectively. By the way, this is
the reason why both the front and rear surfaces of each block
should preferably be rock-faced.
The invention also provides a multiple retaining wall block
comprising at least two blocks as defined above that are integrally
connected to each other in line with the front or rear surface of
each block extending flat against the front or rear surface of
every adjacent block, respectively. In such cases, the bevelled
edges of the front and rear surfaces of each block make it possible
for the same to be slitted and cut off from the remaining
blocks.
Preferably, the unit also comprises a pair of end pieces forming an
integral part thereof. These end pieces extend flat against the
front or rear surfaces of the blocks that extend at both ends of
the unit and have a height slightly smaller than the height of the
blocks. Thereby, these end pieces can be slitted and cut off
directly from a bundle of similar units of the above mentioned
type, stacked on each other.
As can now be better understood, the invention provides new
retaining wall blocks that are trapezoidal in shape and have a
positive interlock. Such blocks can be used to construct walls,
especially garden walls, that are strong and either straight or
serpentine, with concave or convex surface. More particularly, such
blocks, thanks to their structure, can be used to construct tree
rings or wells, patio walls with or without corner, straight walls
with curved ends (e.g. end of a driveway), serpentine feature walls
(e.g. setting wall), L-shaped walls, lawn and driveway edgings,
small steps, free-form shallow ponds, planter boxes, window wells
and the like.
Advantageously, they can be produced in the form of units
comprising blocks of the same or different type (e.g. stacking,
coping or corner type), which can be assembled in the form of very
tight bundles easy to store and transport.
BRIEF DESCRIPTION OF THE DRAWING
The invention and its advantages will be better understood upon
reading of the following, non-restrictive description of a
preferred embodiment thereof, made with reference to the
accompanying drawings in which:
FIG. 1 is a front perspective view of a retaining wall block
according to the invention, which is of the "stacking" type and
thus can be stacked onto similar blocks;
FIG. 2 is a top plan view of the block shown in FIG. 1;
FIG. 3 is a side elevational view of the block shown in FIG. 1;
FIG. 4 is a front perspective view of another retaining wall block
according to the invention, which is of the "coping" type;
FIG. 5 is a top plan view of the block shown in FIG. 4;
FIG. 6 is a side elevation view of the block shown in FIG. 4;
FIG. 7 is a front perspective view of a further block which is of
the "combined corner and coping" type and can be used with the
blocks shown in FIGS. 1 to 6, this block being shown unsplitted in
upside down position;
FIG. 8 is a perspective view of one part of the block shown in FIG.
7, after splitting;
FIG. 9 is a top plan view of two multiple block units each
incorporating four blocks as shown in FIG. 1, one block as shown in
FIG. 4 and one block as shown in FIG. 7, the units being shown as
they stand after ejection from the mould used for their
manufacture;
FIG. 10 is a side elevational view of one of the units shown in
FIG. 9;
FIG. 11 is a perspective view of a bundle made of four units as
shown in FIGS. 9 and 11;
FIG. 12 is an exploded perspective view of a retaining wall showing
how the blocks shown in FIGS. 1 to 3 can be used and stacked one
above the other along straight lines or curves; and
FIG. 13 is a top perspective view of a retaining wall similar to
the one shown in FIG. 12, on top of which two coping blocks as
shown in FIGS. 4 to 6 are mounted.
DESCRIPTION OF A PREFERRED EMBODIMENT OF THE INVENTION
The retaining wall blocks 1 and 11 according to the invention as
shown in FIGS. 1 to 6 of the drawings are intended to be used to
construct retaining walls. These blocks which are preferably made
of mortar or concrete, have numerous similar structural elements.
For the purpose of simplicity, the same reference numerals have
been used in the following description to identify the same
structural elements.
Thus, each block 1 or 1' has a top surface 3 and a bottom surface 5
that are flat and parallel to each other. Each of these top and
bottom surfaces 3, 5 are trapezoidal in shape and symmetrical with
respect to a vertical plane "P". Each block 1 or 1' also has a
front surface 7 and a rear surface 9 that are transversal to the
vertical plane "P" and substantially parallel to each other.
Because of the trapezoidal shape of the top and bottom surfaces 3
and 5, the front surface 7 is longer than the rear surface 9. Both
of these front and rear surfaces 7, 9 preferably have bevelled
edges 11, 13 and a rock-shaped aspect.
Each block 1 or 1' further has tapering left-hand side and
right-hand side surfaces 15, 17 that are flat and extend at given
angles .alpha. that are opposite to each other with respect to the
vertical plane "P" respectively. These angles a that are shown in
FIGS. 2 and 5, are preferably equal to 8.degree.. However, any
other angle could be selected, if desired.
Each block 1 or 1' further has a groove 19 of given depth "d" and
width "w" (see FIG. 3) that extends into the bottom surface 5
perpendicularly to the vertical plane "P" at middle distance from
the front and rear surfaces 7, 9 between the left-hand side and
right-hand side surfaces 15, 17. As is shown, the groove 19
preferably has tapering side walls 21 to make it easier to
mould.
The block 1' comprises the above structural elements, exclusively.
Block 1' is a "coping block", which is intended to be mounted on
top of a retaining wall made of blocks 1 so as to provide a
nice-looking, flat surface on top of this wall. As may be
understood, this nice-looking, flat surface is the "combination" of
the flat top surfaces 3 of the coping blocks 1' that extend
adjacent to each other on top of the retaining wall.
Block 1 is the standard "stacking block" that is used to construct
the retaining wall. This stacking block 1 differs from the coping
block 1' in that it further comprises a tongue 23 projecting from
its top surface 3 in a direction generally perpendicular to the
vertical plane "P" between the left-hand side and right-hand side
surfaces 17 and 19. As is either shown in FIG. 2, the tongue 23 is
diamond-shaped and has a long axis "A" that extends perpendicular
to the vertical plane P a short axis "B" that extend within the
vertical plane "P" and a pair of opposite apexes on the long axis
"A" that are cut into flat portions 25, 27 that are coplanar with
the left-hand side and right-hand side surfaces 15 and 17
respectively.
It is not compulsory that the tongue 23 be diamond-shaped,
eventhough this is preferred. As a matter of fact, the tongue could
be ellipsoidal. However, it is compulsory that this tongue 23 has a
height "h" (see FIG. 3) equal to or small than the depth "h" of the
groove 19. It is also compulsory that the tongue 23 has a width
"w'" of varying size, which, at middle distance from the left-hand
side and right-hand side surfaces, is substantially equal to or
slightly smaller than the width "w" of the groove 19, and which
becomes smaller in size toward each of the left-hand side and
right-hand sides 15 and 17, respectively.
Thereby, another block 1 or a coping block 1' can be stacked onto
the block 1 with the tongue 23 of the block 1 inserted into the
groove 19 of the other block 11 or 1' and with the front surfaces
of both of these stacked blocks extending either parallel or at an
angle with respect to each other as a function of the position
given to the tongue 23 within the groove 19 of the other block 1 a
or 1' (see FIGS. 12 and 13).
When the groove 19 has tapering sidewalls 21, the tongue 23
preferably also has sidewalls 29 that taper at a same angle.
As is clearly shown in FIG. 3, the tongue 23 advantageously extends
at middle distance from the front and rear surfaces 7 and 9 of the
block, respectively, so as to be "coplanar" with the groove 19.
This feature is particularly interesting in that when another block
1 is stacked onto the block 1 with the tongue 23 of the block 1
inserted into the groove of the other block 1 and with the front
surfaces and/or rear surfaces of both blocks 1 extending parallel,
these front surfaces are coplanar (see FIG. 13).
The block 1 or 1' according to the invention can be of any size.
However, its proportions are preferably selected so that:
the ratio of the length of its front surface 7 to the length of its
rear surface 9 is equal to about 4/3;
the ratio of the height of its front and rear surfaces 7, 9 to the
length of its front surface 7 is equal to about 1/2; and
the ratio of the length of its front surface 7 to the distance
between its front and rear surfaces 7, 9 is equal to about 1.
Thus, for example, the block 1 could have a front surface 7 that
would be 20 cm long and 10 cm high. Its rear surface 9 could be 15
cm long and the distance between its front and rear surfaces 7 and
9 could be equal to 20 cm. Its groove 19 could be 1.4 cm deep and
have a bottom that would be 4.2 cm wide. Its diamond-shaped tongue
23 could be 1.2 cm high and have a top surface that would be 4.0 cm
wide in the middle and 1.8 cm wide at both ends.
Of course, other proportions and/or dimensions could be selected as
need be, without departing from the scope of the present
invention.
As is shown in FIGS. 9 and 10, the blocks 1 and 1' can be molded in
the form of multiple block units 31, 31' each comprising at least
two blocks and preferably more than two blocks integrally connected
to each other in line with the front or rear surface 7, 9 of each
block extending flat against the front or rear surface of every
adjacent block, respectively. In the illustrated embodiment, each
unit 31, 31' comprises six blocks, viz. four blocks 1 of the
stacking type, one block 1' of the coping type, and a further block
1" which is better shown in FIGS. 7 and 8 and will be described in
greater detail hereinafter. It must be understood however that each
unit could have a different number of blocks that could be of one,
two or more types, each in any number.
As can be noted, unit 31' is a "mirror copy" of unit 31. Both of
them contain the same blocks but in longitudinally inverted
position. This feature has several advantages. First of all, it
reduces the space that would otherwise be required to have a
plurality of blocks molded at the very same time in a same mould.
Indeed, if the mould is shaped to produce units 1 and 1' in pair
adjacent to each other as is shown in FIG. 9, there would be almost
no lost space within this mould (see the dotted line 33 which shows
the external contour that the mould could have). Secondly, the fact
that the units 31 and 31' are mirror copies of each other make it
possible to stacked them in the form of a bundle as is shown in
FIG. 11, thereby making the storing and transportation of the
blocks much easier to carry out.
As aforesaid, each block 1, 1', 1" of each unit 31, 31' has its
front or rear surface connected to the rear or front surface of the
adjacent block(s), respectively. Thanks to the presence of bevelled
edges on these front and rear surfaces as was disclosed
hereinabove, each block or group of blocks can be easily slitted
and cut off from the remaining blocks with a hammer and chisel, or
alternatively, a circular saw. In this connection, the use of a
hammer and chisel is certainly of a greater interest since it
causes splitting of the adjacent surfaces of the adjacent blocks by
fragmentation and thus gives a nice looking, rock-face aspect to
these surfaces. Of course, to give the same rock-face aspect to the
front or rear surfaces of the blocks that form the end surfaces of
each unit, the same may be molded with a pair of integral end
pieces 35 that extend flat against the front or rear surfaces of
the end blocks of the unit. Preferably, the end pieces 35 have a
height slightly smaller than the height of the adjacent blocks 1.
This makes it possible to slit and cut off these end pieces
directly from a bundle 37 of stacked units 31, 31' (see FIG.
11).
It is worth mentioning that, after having been broken off, the end
pieces 35 of each unit 31, 31' that are thinner than the other
blocks can be used as paving stones.
The units 1, 1' that are produced in the mould can, thanks to their
shape, be nested into each other both vertically and horizontally,
thereby producing a tight and compact bundle 37 (see FIG. 11) that
is very easy to transport without damage.
As aforesaid, each unit 1, 1' can include a block 1". This block 1"
which is shown in FIGS. 7 to 10, is trapezoidal in shape and of the
same height as the blocks 1, 1'. It is intended to be broken off
along its main axis, in order to be splitted into two half-blocks
39, 39' that can be used as corner blocks. For this purpose, the
block 1" comprises a V-shaped, split-initiating recess 41 on its
bottom surface. The block 1" also comprises two closed-ended
grooves 43,43' that extend transversally to the recess 41, so as to
receive the tongue of any underlying block 1 of the stacking
type.
As is shown in FIGS. 12 and 13, the blocks according to the
invention make it possible to construct straight or serpentine
walls wherein each horizontal row is positively locked to the
underlying row, with no automatic, unwanted set-back. The blocks
according to the invention can be positioned in such a manner as to
avoid gaps, there, by providing a tight fit even around sharp
curves.
Blocks of the dimensions disclosed hereinabove can be used to build
wall with a 29" outside radius curve. Such blocks weight 18 lbs
only and can be easily produced with a standard multilayer paver
machine. Their symmetrical geometry and unique interlock ensure
perfect fit every time in use. Each block can be easily split from
a bundle made of units which are themselves made of several blocks.
Such makes the inventory, storing and transportation very easy.
Of course, slight modification could be made to the blocks
according to the invention without departing from the scope of the
appended claims.
* * * * *